CA1282637C - Rotary multicolor indirect printing machine for simultaneously recto-verso printing - Google Patents
Rotary multicolor indirect printing machine for simultaneously recto-verso printingInfo
- Publication number
- CA1282637C CA1282637C CA000496671A CA496671A CA1282637C CA 1282637 C CA1282637 C CA 1282637C CA 000496671 A CA000496671 A CA 000496671A CA 496671 A CA496671 A CA 496671A CA 1282637 C CA1282637 C CA 1282637C
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- Prior art keywords
- cylinder
- printing
- blanket
- cylinders
- plate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M3/00—Printing processes to produce particular kinds of printed work, e.g. patterns
- B41M3/14—Security printing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F5/00—Rotary letterpress machines
- B41F5/04—Rotary letterpress machines for printing on webs
- B41F5/16—Rotary letterpress machines for printing on webs for multicolour printing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F9/00—Rotary intaglio printing presses
- B41F9/02—Rotary intaglio printing presses for multicolour printing
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Rotary Presses (AREA)
Abstract
DE LA RUE GIORI S.A. LAUSANNE/Switzerland ROTARY MULTICOLOR INDIRECT PRINTING MACHINE FOR
SIMULTANEOUSLY RECTO-VERSO PRINTING"
ABSTRACT OF DISCLOSURE
The rotary multicolor indirect printing machine for the simultaneous recto-verso printing comprises two blanket cylinders between which the paper is fed for printing both sides thereof, each cylinder cooperating with a plurality of plate cylinders inked by their own inking device. A
cylinder convertible into a plate cylinder or an image transfer cylinder contacts one of said blanket cylinders and a third blanket cylinder . The latter is inked by several plate cylinders each inked by its own inking device and carrying an offset plate if the convertible cylinder operates as an image transmission cylinder, or a selective color inking plate if the convertible cylinder carries a collect printing plate. Thus, the convertible cylinder transfers an offset multicolor image or a collect printing image to the blanket cylinder printing the paper on one side, this image being further completed by several offset printing.
SIMULTANEOUSLY RECTO-VERSO PRINTING"
ABSTRACT OF DISCLOSURE
The rotary multicolor indirect printing machine for the simultaneous recto-verso printing comprises two blanket cylinders between which the paper is fed for printing both sides thereof, each cylinder cooperating with a plurality of plate cylinders inked by their own inking device. A
cylinder convertible into a plate cylinder or an image transfer cylinder contacts one of said blanket cylinders and a third blanket cylinder . The latter is inked by several plate cylinders each inked by its own inking device and carrying an offset plate if the convertible cylinder operates as an image transmission cylinder, or a selective color inking plate if the convertible cylinder carries a collect printing plate. Thus, the convertible cylinder transfers an offset multicolor image or a collect printing image to the blanket cylinder printing the paper on one side, this image being further completed by several offset printing.
Description
~8~i37 The invention relates to a rotary multicolor indirect printing machine for simultaneously recto-verso printing, more particularly the safety background of fiduciary papers and notably ~anknotes, according to the preamble of claim 1.
Machine of this type are already known for of-fset simul-taneous recto-verso printing (CH-A-502 897) wherein the paper is fed between two blanket cylinde~s ~eceiving each a multicolor image from several corresponding off-set plate cylinders. These platss are either wet effset plates moistened by a dampening device in the case of wet offset printing or dry offset plates consisting of typographic plates in the case of dry offset printing, also referred to as indirect typographic printing.
According to this method, the complete image consist o~
partial images carried by offset printing plates mounted on plate cylinders inked with di~ferent colors to permit the superposition of images and colors in mutual register on a blanket cylinder against which the paper to be printed is pressed. This offset printing is fre-quently used for printing safety backgrounds of banknotes.
It is also known. from the published German patent application DE-A~3109964, to use an indirect printin~
machine ~or printing on one side of the paper an image with juxtaposed colors. This image is printed by means of a single collect printing plate consisting of a typo-graphic plate representing the complete desi~n to be printed and mounted on a plate cyl.inder. This collect printing plate is inked by a collecting cylinder consisting of a blanket cylinder inked in turn by a ~8~
plurality of selective color inking cylinders of which the number corresponds to the number of colors of the image to be printed. Each selector cylinder comprises relief cut-out areas representing the image areas to be colored with a predetermined color transferred thereto by its own inking device. This machine is also adapted to print the safety background of banknotes.
With this method, commonly referred to as color collect or "Orlof" printing, a multicolor image is obtained which ensures a perfect registration between the various colors of the image design, a result that cannot be achieved with any other printing method. Since the selective color inking cylinders contact a resilient surface of the collecting cylinder, they can be manufac-tured from a hard material, so that very fine relief areas and consequently very fine colored areas can be cut, for example in the form of lines or points.
In the present state of the art, the number of colors that can be transferred by these printing machines on one side of the paper was as a rule limited to four.
This i~ due notably to a problem of space available around the cylinder, this space preventing the use of more than four inking systems per cylinder. On the other hand, with offset printing if an excessive number of superposed ink layers of different colors is used, the total thiclcness of the layer increases and is detrimen-tal to the quality of the transferred image; it was even found that b2yond four colors the ink film is too thick and the contact between the blanket cylinder and the next offset plate is liable to partially tear off the previously applied ink film instead of applying the new film.
It is the purpose of the present invention to provide a . .' , .
~82637 21161-136 rotary multicolor indirect recto-verso printing machine, which permits to increase the number of colors transferred to at least one side of the paper in comparison with hitherto known machines, while aEfording at the same time the possibility of implementing on at least one side of the paper, as desired, the offset or collect printing method, completed by several additional offset printings, and permitting of changing from one method to the other in the simplest way.
Accordingly, the invention herein comprises a rotary multicolor indirect printing machine for simultaneous recto-verso printing, more particularly for printing the safety background of fiduciary papers and notably banknotes, comprising a first blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a second blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a third blanket cylinder pressed against said first blanket cylinder and operating with at least one plate cylinder inked by its own inking device; a convertible cylinder that is convertible into a plate cylinder or an image transfer ~0 cylinder, said convertible cylinder contacting said second and said third blanket cylinders, the paper being fed between said first and said third blanket cylinders; -the diameter of the three blanket cylinders being a whole multiple of the diameter of said convertible cylinder and of said plate cylinders, whereby:
in a first mode of operation, -the plate cylinders cooperating with said second blanket cylinder carry selective color inking plates and the convertible cylinder carries a collect printing plate, and .
.. . : . . . ' .
~Z~3~ 21161-136 in a second mode of operation, said last mentioned plate cylinders carry offset printing plates and said convertible cylinder is an image transfer cylinder having a smooth layer for transferring the offset image from said second to said third blanket cylinder.
The advantageous feature of this machine lies in the fact that up to, for example, six colors can be printed in perfect registration on one face of the paper by making either a six-color offset print or a collect print, for example of four or three colors, completed by an offset print of two or three colors. Such possibilities had never been achieved up to now with a single machine.
To achieve this result the essential fact is that the blanket cylinder, on which six colors are assembled, already receives several colors, for example four colors, via the convertible cylinder 15, as a multicolor design. If the convertible cylinder carries a smooth lining, notably a rubber blanket, and operates as a cylinder for transmitting the three-or four-color offset image, the layers thereof, during the transfer from one cylinder to another, are spread on the cylinders involved ~0 and are somewhat flattened; thus, the multicolor image transferred to the blanket cylinder assembling the six colors will constitute an ink layer of nearly normal thickness, on which two or three other layers 4a~
C
.
: ' ' 6~3~
constituting each other partial images will further be superposed. Thus, in the case of a six-co].or print, only one superposition of three of ~our layers of ink is formed on the blanket cylinder, on which said colors are assembled. The same reasoning is applicable in case the convertible cylinder carries the collect printing plate because the four colors are juxtaposed on this plate.
~ccording to an advantageous struckure of the machine, the cylinders are so arranged that the three blanket cylinders lia at least approximately in vertical mutual relationship and the path followed by the paper through the machine is at least approximately horizontal. In the case of a web fed printing machine and if the paper must b~ dried after the impression, it is possible to mount a drying device adjacent the machine, such that the web which cannot be guided by a roller can travel directly horizontally through this drying device.
According to another advantageous structure, the first two blanket cylinders are disposed horizontally in adjacent relationship, the convertible cylinder and the third blanket cylinder being disposed at least approxi-mately in superposed relationship, the paper following a vertical path. With this arranyement, the access to the cylinders is facilitated and the peripheral space surrounding the second blanket cylinder is cleared, thus permitting to provide around this cylinder for example three plate cylinders if the diameter of the blanket cylinder and the diameter of the plate cylinders are in the ratio of 4:1.
Other advantageous forms of embodiment of the invention are described in the subordinate claims.
The invention will be described by way of non~limiting --~5 --, .
, 3~7 e~ample in connection with three forms of embodiment with reference to the accompanying drawings.
Figure 1 illustrates diagrammatically a first form of embodiment of a printing machine according to the invention.
Figure 2 illustrates diagrammatically a second ~orm of embodiment.
Figure 3 illustrates diagrammatically a third form of embodiment.
The machines illustrated relate to web fed printing machines. In all the Figures of the drawings, the same component elements are designated by tha same reference numerals and have the same functions, only the machine configuration changes.
~0 According to the configuration shown in Figure 1, the paper web 1 follows an at least approximately horizontal path and travels between two blanket cylinders 2 and 3 disposed in a main structure 23 and acting as counter-pressure cylinders to each other. The first blanket cylinder 2 adapted to print on one side of paper 1 the first image according to the offset printing method is disposed substantially vertically above the second blanket cylinder 3 adapted to print the second image on the other side of paper 1.
The first blanket cylinder 2 cooperates, according to Figure 1, with four plate cylinders 4a,4b,4c,4d housed in the main frame structure ?3, three of said cylinders 4b,4c,4d being each provided, in the e~ample illustrat-ed, with a dry offset printing plate, consisting of a typographic plate, each plate being inked by a separate ~l28Z~37 inkin~ device 5b,5c,5d with double ink duct, thus permitting the so-called iris printing; the fourth off-set plate cylinder 4a carries a wet offset print.ing plate inked by an inking device Sa with a single ink duct and provided with a dampening device 6 for produc-ing a wet offset printed image.
The inking devices are disposed symmetrically an either side of blanket cylinder 2, the inking device 5a,5b being mounted on a movable carriage 7 and the inking devices Sc,5d being mounted on a movable carriage 8.
80th movabla carriages 7,8 are suspended on both sides of blanket cylinder 2, by means of rollers 9,10 respec-tively, from a horizontal beam 11 of the main frame structure 23. rhese four offset plates 4a-4d represent partial images which are inked in dif~erent colors and assembled on blanket cylinder 2 acting as an offset blanket cylinder, on which the multicolor image with superposed colors is composed, notably a saf~ty back-ground in the case of banknotes. This image istransferred to one side of paper 1, in the example considered herein to the upper ~ace on which a three-color dry of~set print is obtained which is completed by a monochrome offset wet print.
The uppar portion of the machine is tharefore an offset printing machine having however the peculiarity that all the plate cylinders 4a-4d disposed on the two sides assist in printing the same paper side.
Beneath the path of the paper web 1 are the machine ele-ments necessary for obtaining either an o~fset -"Orlof"
printin~ combination or a six-color offset printing.
These elements comprise the blanket cylinder 3 acting as an offset blanket cylinder cooperating with two plate cylinders 12a,12b and a covertible cylindsr 15 to ba ~2~2~37 described more in detail subsequently. The cylinder 12a carries a WQt offset plate inked by an inking device 13a provided with a dampening device 14. Cylinder 12b, on the other side, carries a dry offset plate inked by an inking device 13b.
The convertible cylinder 15 engages a third blanket cylinder 16, the blanket cylinders 3 and 16 having the same diameter as blanket cylinder Z, the axes of the three cylinders 2,3 and 16 lying substantially in a same vertical plane. This blanket cylinder 16, in the example illustrated, cooperates with four plate cylinders 17a-17d each inked by means of an inking device 1Ba-18d with double ink duct, thus permitting of obtaining iris prints.
In a first mode of operation, the convertible cylinder 15 carries a collect printing plate, also called -Orlof'-printing plate, consisting of a typographic plate representing an image to be inked with fou~ juxtaposed colors, and plate cylinders 17a-17d carrying selective color inking plates. These plates have relief portions cut out according to the contour of the areas to be printed in the respective color and are inked with the respective color by the corresponding inking device 18a-1~d. These selective color inking plates o~ cylinders 17a-17d are made preferably from hard material not liable to undergo a distortion even in case of very fine relief, so that in the case of banknotes a safety back-groundd consisting of very ~ine color areas can beobtained. The areas of the four colors are transferred to blanket cylinder 16 operatiny as a color collectlng cylinder on which they are assembled, khis cylinder inking with ~our juxtaposed colors tho collect printiny plate of convertible cylinder 15. The latter kransfers this multicolor ima~e to blanket cylinder 3.
~2~i37 This blanket cylinder 3 will thus receive a combined six-color "Orlof"-Offset image which i3 transf~rred to the lower side of paper 1, whereas the upper facc receives simultaneously the offset four-color image. Of this six-color ima~e, four colors constitute an "Orlof"
image with juxtaposed colors representing only one layer of ink of normal thickness: the other two colors from plate cylind~rs 12a, 12b are sup~rposed to this partial "Orlof" image in the fashion of an offset print. There-fore, the maximum ink thickness on blanket cylinder 3will correspond to thre~ ink layers.
According to the second mode of operation, the converti-ble cylinder 15 is an image transmission cylinder and comprises for this purpose a smooth layer, preferably a rubber blanket, and the plate cylinders 18a-18d carry dry offset printing plates. In this case, the four-color offset image assembled on blanket cylinder 16 is transferred via convertible cylinder 15 to blanket cylinder 3 on which two other offset images are added by plate cylinders 12a,12b, thus providing a six-color off-set image printed on the lower face of the paper.
Since the four-color image of blanket cylinder 16 does not represent anymore, on convertible cylinder 15, after its transfer to the latter, four normal superposed layers but, due to the spreading ~nd flattening caused by the transfer, is noarly the equivalent of the thick-ness of a single lay~r, there i~ no inconvenience in ad-ding two other lay~rs.
The blanket cy}inders 3 and 16, plate cylinders 12a,12band 17a,17b disposed on either side of blanket cylinder 3, respectively 16, as well as the convertible cylinder 15, are all housed in the main frame structure 23, like _ g _ blanket cylinder 2 ~n~ pl~t~ cylind~rs ~a-4d. The inkin~
d~vic0~ 13a,1~a,1Bb ~r~ in~talled on a mov~bl0 carria~0 lg disposed ~en~ath ~he movable carria~e 7 ~nd rolling on rollers Z1, wh~reas the inking d0vices 13b,1~c and lad ~re installad on a movabl~ carria~e 20 di~posed b~neaeh th~ moYable carria~0 ~ and rolling on roll0rs 22. Thus, the peculiar festurs is that all the el~ments carri~d by the two carria0~s 19 and 20. as well as th~
corresponding plate cylinders on ~ither side of blanket cylinders 3,16, are utiliz0d for p~inting a multicolor imag~ on th~ same side o~ th0 paper, w~er~as the slements carried by the two upp~r carriages 7 ~nd ~ and the corr~sponding plate cylinders are utilized for printing a multicolor im~ on th~ other sido of the papor.
At the e~it of ~he machine the paper web 1, of which the p~th is constantly hori~ontal, moves p~st a dryin~
dQvicQ, for instance ~n ultra-viole~ drying duvice com-prising an UppQr unit 2~ and a lowsr unit 25 each prov-ided with a protsction plats 26 resp.27 on the other side of the paper. As ~ rule, this drying ~ction is ne-c~ssary if the paper web subsequently tr~vels throu0h at lea~e another printing unit for creating a multicolor m~in design in the ca~a of a banknot~.
In t~e axampl~ illu~trated in Figure ~, th3 diamotar of blanket cylinders 2.3 and 16, and th~ diamater of the plat~ cylinders and th~t o~ the convertible cylind~r are in t~e ratio of 3 : 1.
In t~o form of ~mbodiment illustrat~d in Fi~ure 2. the compon~nt elements of ths machine are unchan~ed, but the various inkin~ devices are disposed on only two movable carriages instcad of four, nam01y a front c~rriag~ 20 ~upporting all the inkin~ devices for plat~ cylinders B
4a, 4b, 12a, 17a, 17b and a rear carriage 29 supporting all the in~ing devices for plate cylinders 4c, ~d, 12b, 17c and 17d, the path of the papar passing through said carriages 28,29 o~ which the ~rame structure comprises the necessary free passage.
In the ~orm of embodiment illustrated in Figure 3, the first two blanket cylinders 2 and 3 are disposed hori-zontally, adjacent to each other, whereas the thir~
blanket cylinder 16 and the convertible cylinder 15 are supsrposed at least approximately vertically , above the second blanket cylin~er 3. The paper 1 follows an at least approximately vertical path. According to this ar-rangement, the blanket cylinders are more accessible and a greater portion of the peripheral surface of cylinder 3 is available for installing more plate cylinders. Re-garding the disposition of the inking devices, only the ink troughs proper and the inking rollers contacting the plate cylinders are illustrated, while eliminating all the intermediary rollers.
As in the other two forms of embodiment, the first blan-ket cylinder 2 printing one face of paper 1 cooperat0s with four plate cylinders 4a-4d each inked by an inking de~ice 5b-5d with double ink duct, and by an inking device 5a with single ink duct for plate cylinder 4a provided with a dampening device 6. These inking device 5a-5d are mounted on a movable inking carriage 31. The second blanket cylinder 3 cooperates with three plate cylinders 12a-12e provided with their respective inkin~
devices 13a-13c, the inking device 13a being completed by a dampening device 14 for plate cylinder 12a. The third blanket cylinder 16 cooperates likewi~e with three plate cylinders 17a-17c inked by their inking devices 18a-18c, respectively. The inking devices 13a-13c and 18a-18c are mounted on another movable inking carriage 1 1` --' ~ 21161-136 30. ~he diametor of blanket cylind2rs 2,3 and 16 ~nd th~
diameter of the plate cylinders and of th0 convertibl~
cylinder 15 are in the ratio of ~:1, If nec0ss~ry, ~t l~ast on~ of blanket cylindsrs 3 or 16 could also be inked by four plate cylind~rs, therefore with four colors.
~he functions of these various elem~nts are id0ntical with tho3e described with ref~rence to figures 1 and 2.
Of course, it is also possible to rontemplate that all the plate cylindors cooparating with blank~t cylinders 2 and 3 be equipped with dry or wet, or partly with dry, partly with wet offset plates, Preferably, plate cylinders ~a and 12a or at least one o~ them, comprise an intaglio plate havin~ its surface wetted in the ~ashion of ~ wet off~Qt plate by a dampening davice 6, resp.14, so that the plate surface outside the 0ngraved lines will repel the ink, Th0 quality of this intaglio print~ng is suitable 40r ereatin~ a main d~si~n on bankno~es.
When printing banknot~s, the safety backgrounds may thus be print~d on both sides in four or six colors. If an intaglio printing plate representing the main design is used, a complete print is obtained with a background of three, resp.five colors and the monochrome main design. This is adequate fos banknotes of smaller value for which a monochrome main dQsign is deemed to be suf-ficient. for printing main multicolor d~sign, the bank-notes are subsequently fed to another printing m~chino.
notably an intaglio pr~ntin~ machine.
In the three form8 o~ embodiment describod hereinabove, the passage of the paper wab coul~ be r~v~rse without brin~in0 any change in the machine, except for the posi-B
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.
3;2637 tion of the drying device. Moreover, these machines could be sheet prlnting machines and in this case guida members should be provided for the sheets and one of the blanket cylinders 2 or 3 should be provided with grip-pers for gripping the sheets.
Finally, a second convertible cylinder cooperating with the first blanket cylinder 2 could be provided, together with a fo~rth blanket cylinder similar to cylinder 16, in order to have the possibility of making a six-color print also on the other side of the paper. In this case, the machine would comprise two symmetrical hllves.
- 13~-- ' : ' .~ ', ,: , ' .
.
:', '' . :' . , ~ ~ .
Machine of this type are already known for of-fset simul-taneous recto-verso printing (CH-A-502 897) wherein the paper is fed between two blanket cylinde~s ~eceiving each a multicolor image from several corresponding off-set plate cylinders. These platss are either wet effset plates moistened by a dampening device in the case of wet offset printing or dry offset plates consisting of typographic plates in the case of dry offset printing, also referred to as indirect typographic printing.
According to this method, the complete image consist o~
partial images carried by offset printing plates mounted on plate cylinders inked with di~ferent colors to permit the superposition of images and colors in mutual register on a blanket cylinder against which the paper to be printed is pressed. This offset printing is fre-quently used for printing safety backgrounds of banknotes.
It is also known. from the published German patent application DE-A~3109964, to use an indirect printin~
machine ~or printing on one side of the paper an image with juxtaposed colors. This image is printed by means of a single collect printing plate consisting of a typo-graphic plate representing the complete desi~n to be printed and mounted on a plate cyl.inder. This collect printing plate is inked by a collecting cylinder consisting of a blanket cylinder inked in turn by a ~8~
plurality of selective color inking cylinders of which the number corresponds to the number of colors of the image to be printed. Each selector cylinder comprises relief cut-out areas representing the image areas to be colored with a predetermined color transferred thereto by its own inking device. This machine is also adapted to print the safety background of banknotes.
With this method, commonly referred to as color collect or "Orlof" printing, a multicolor image is obtained which ensures a perfect registration between the various colors of the image design, a result that cannot be achieved with any other printing method. Since the selective color inking cylinders contact a resilient surface of the collecting cylinder, they can be manufac-tured from a hard material, so that very fine relief areas and consequently very fine colored areas can be cut, for example in the form of lines or points.
In the present state of the art, the number of colors that can be transferred by these printing machines on one side of the paper was as a rule limited to four.
This i~ due notably to a problem of space available around the cylinder, this space preventing the use of more than four inking systems per cylinder. On the other hand, with offset printing if an excessive number of superposed ink layers of different colors is used, the total thiclcness of the layer increases and is detrimen-tal to the quality of the transferred image; it was even found that b2yond four colors the ink film is too thick and the contact between the blanket cylinder and the next offset plate is liable to partially tear off the previously applied ink film instead of applying the new film.
It is the purpose of the present invention to provide a . .' , .
~82637 21161-136 rotary multicolor indirect recto-verso printing machine, which permits to increase the number of colors transferred to at least one side of the paper in comparison with hitherto known machines, while aEfording at the same time the possibility of implementing on at least one side of the paper, as desired, the offset or collect printing method, completed by several additional offset printings, and permitting of changing from one method to the other in the simplest way.
Accordingly, the invention herein comprises a rotary multicolor indirect printing machine for simultaneous recto-verso printing, more particularly for printing the safety background of fiduciary papers and notably banknotes, comprising a first blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a second blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a third blanket cylinder pressed against said first blanket cylinder and operating with at least one plate cylinder inked by its own inking device; a convertible cylinder that is convertible into a plate cylinder or an image transfer ~0 cylinder, said convertible cylinder contacting said second and said third blanket cylinders, the paper being fed between said first and said third blanket cylinders; -the diameter of the three blanket cylinders being a whole multiple of the diameter of said convertible cylinder and of said plate cylinders, whereby:
in a first mode of operation, -the plate cylinders cooperating with said second blanket cylinder carry selective color inking plates and the convertible cylinder carries a collect printing plate, and .
.. . : . . . ' .
~Z~3~ 21161-136 in a second mode of operation, said last mentioned plate cylinders carry offset printing plates and said convertible cylinder is an image transfer cylinder having a smooth layer for transferring the offset image from said second to said third blanket cylinder.
The advantageous feature of this machine lies in the fact that up to, for example, six colors can be printed in perfect registration on one face of the paper by making either a six-color offset print or a collect print, for example of four or three colors, completed by an offset print of two or three colors. Such possibilities had never been achieved up to now with a single machine.
To achieve this result the essential fact is that the blanket cylinder, on which six colors are assembled, already receives several colors, for example four colors, via the convertible cylinder 15, as a multicolor design. If the convertible cylinder carries a smooth lining, notably a rubber blanket, and operates as a cylinder for transmitting the three-or four-color offset image, the layers thereof, during the transfer from one cylinder to another, are spread on the cylinders involved ~0 and are somewhat flattened; thus, the multicolor image transferred to the blanket cylinder assembling the six colors will constitute an ink layer of nearly normal thickness, on which two or three other layers 4a~
C
.
: ' ' 6~3~
constituting each other partial images will further be superposed. Thus, in the case of a six-co].or print, only one superposition of three of ~our layers of ink is formed on the blanket cylinder, on which said colors are assembled. The same reasoning is applicable in case the convertible cylinder carries the collect printing plate because the four colors are juxtaposed on this plate.
~ccording to an advantageous struckure of the machine, the cylinders are so arranged that the three blanket cylinders lia at least approximately in vertical mutual relationship and the path followed by the paper through the machine is at least approximately horizontal. In the case of a web fed printing machine and if the paper must b~ dried after the impression, it is possible to mount a drying device adjacent the machine, such that the web which cannot be guided by a roller can travel directly horizontally through this drying device.
According to another advantageous structure, the first two blanket cylinders are disposed horizontally in adjacent relationship, the convertible cylinder and the third blanket cylinder being disposed at least approxi-mately in superposed relationship, the paper following a vertical path. With this arranyement, the access to the cylinders is facilitated and the peripheral space surrounding the second blanket cylinder is cleared, thus permitting to provide around this cylinder for example three plate cylinders if the diameter of the blanket cylinder and the diameter of the plate cylinders are in the ratio of 4:1.
Other advantageous forms of embodiment of the invention are described in the subordinate claims.
The invention will be described by way of non~limiting --~5 --, .
, 3~7 e~ample in connection with three forms of embodiment with reference to the accompanying drawings.
Figure 1 illustrates diagrammatically a first form of embodiment of a printing machine according to the invention.
Figure 2 illustrates diagrammatically a second ~orm of embodiment.
Figure 3 illustrates diagrammatically a third form of embodiment.
The machines illustrated relate to web fed printing machines. In all the Figures of the drawings, the same component elements are designated by tha same reference numerals and have the same functions, only the machine configuration changes.
~0 According to the configuration shown in Figure 1, the paper web 1 follows an at least approximately horizontal path and travels between two blanket cylinders 2 and 3 disposed in a main structure 23 and acting as counter-pressure cylinders to each other. The first blanket cylinder 2 adapted to print on one side of paper 1 the first image according to the offset printing method is disposed substantially vertically above the second blanket cylinder 3 adapted to print the second image on the other side of paper 1.
The first blanket cylinder 2 cooperates, according to Figure 1, with four plate cylinders 4a,4b,4c,4d housed in the main frame structure ?3, three of said cylinders 4b,4c,4d being each provided, in the e~ample illustrat-ed, with a dry offset printing plate, consisting of a typographic plate, each plate being inked by a separate ~l28Z~37 inkin~ device 5b,5c,5d with double ink duct, thus permitting the so-called iris printing; the fourth off-set plate cylinder 4a carries a wet offset print.ing plate inked by an inking device Sa with a single ink duct and provided with a dampening device 6 for produc-ing a wet offset printed image.
The inking devices are disposed symmetrically an either side of blanket cylinder 2, the inking device 5a,5b being mounted on a movable carriage 7 and the inking devices Sc,5d being mounted on a movable carriage 8.
80th movabla carriages 7,8 are suspended on both sides of blanket cylinder 2, by means of rollers 9,10 respec-tively, from a horizontal beam 11 of the main frame structure 23. rhese four offset plates 4a-4d represent partial images which are inked in dif~erent colors and assembled on blanket cylinder 2 acting as an offset blanket cylinder, on which the multicolor image with superposed colors is composed, notably a saf~ty back-ground in the case of banknotes. This image istransferred to one side of paper 1, in the example considered herein to the upper ~ace on which a three-color dry of~set print is obtained which is completed by a monochrome offset wet print.
The uppar portion of the machine is tharefore an offset printing machine having however the peculiarity that all the plate cylinders 4a-4d disposed on the two sides assist in printing the same paper side.
Beneath the path of the paper web 1 are the machine ele-ments necessary for obtaining either an o~fset -"Orlof"
printin~ combination or a six-color offset printing.
These elements comprise the blanket cylinder 3 acting as an offset blanket cylinder cooperating with two plate cylinders 12a,12b and a covertible cylindsr 15 to ba ~2~2~37 described more in detail subsequently. The cylinder 12a carries a WQt offset plate inked by an inking device 13a provided with a dampening device 14. Cylinder 12b, on the other side, carries a dry offset plate inked by an inking device 13b.
The convertible cylinder 15 engages a third blanket cylinder 16, the blanket cylinders 3 and 16 having the same diameter as blanket cylinder Z, the axes of the three cylinders 2,3 and 16 lying substantially in a same vertical plane. This blanket cylinder 16, in the example illustrated, cooperates with four plate cylinders 17a-17d each inked by means of an inking device 1Ba-18d with double ink duct, thus permitting of obtaining iris prints.
In a first mode of operation, the convertible cylinder 15 carries a collect printing plate, also called -Orlof'-printing plate, consisting of a typographic plate representing an image to be inked with fou~ juxtaposed colors, and plate cylinders 17a-17d carrying selective color inking plates. These plates have relief portions cut out according to the contour of the areas to be printed in the respective color and are inked with the respective color by the corresponding inking device 18a-1~d. These selective color inking plates o~ cylinders 17a-17d are made preferably from hard material not liable to undergo a distortion even in case of very fine relief, so that in the case of banknotes a safety back-groundd consisting of very ~ine color areas can beobtained. The areas of the four colors are transferred to blanket cylinder 16 operatiny as a color collectlng cylinder on which they are assembled, khis cylinder inking with ~our juxtaposed colors tho collect printiny plate of convertible cylinder 15. The latter kransfers this multicolor ima~e to blanket cylinder 3.
~2~i37 This blanket cylinder 3 will thus receive a combined six-color "Orlof"-Offset image which i3 transf~rred to the lower side of paper 1, whereas the upper facc receives simultaneously the offset four-color image. Of this six-color ima~e, four colors constitute an "Orlof"
image with juxtaposed colors representing only one layer of ink of normal thickness: the other two colors from plate cylind~rs 12a, 12b are sup~rposed to this partial "Orlof" image in the fashion of an offset print. There-fore, the maximum ink thickness on blanket cylinder 3will correspond to thre~ ink layers.
According to the second mode of operation, the converti-ble cylinder 15 is an image transmission cylinder and comprises for this purpose a smooth layer, preferably a rubber blanket, and the plate cylinders 18a-18d carry dry offset printing plates. In this case, the four-color offset image assembled on blanket cylinder 16 is transferred via convertible cylinder 15 to blanket cylinder 3 on which two other offset images are added by plate cylinders 12a,12b, thus providing a six-color off-set image printed on the lower face of the paper.
Since the four-color image of blanket cylinder 16 does not represent anymore, on convertible cylinder 15, after its transfer to the latter, four normal superposed layers but, due to the spreading ~nd flattening caused by the transfer, is noarly the equivalent of the thick-ness of a single lay~r, there i~ no inconvenience in ad-ding two other lay~rs.
The blanket cy}inders 3 and 16, plate cylinders 12a,12band 17a,17b disposed on either side of blanket cylinder 3, respectively 16, as well as the convertible cylinder 15, are all housed in the main frame structure 23, like _ g _ blanket cylinder 2 ~n~ pl~t~ cylind~rs ~a-4d. The inkin~
d~vic0~ 13a,1~a,1Bb ~r~ in~talled on a mov~bl0 carria~0 lg disposed ~en~ath ~he movable carria~e 7 ~nd rolling on rollers Z1, wh~reas the inking d0vices 13b,1~c and lad ~re installad on a movabl~ carria~e 20 di~posed b~neaeh th~ moYable carria~0 ~ and rolling on roll0rs 22. Thus, the peculiar festurs is that all the el~ments carri~d by the two carria0~s 19 and 20. as well as th~
corresponding plate cylinders on ~ither side of blanket cylinders 3,16, are utiliz0d for p~inting a multicolor imag~ on th~ same side o~ th0 paper, w~er~as the slements carried by the two upp~r carriages 7 ~nd ~ and the corr~sponding plate cylinders are utilized for printing a multicolor im~ on th~ other sido of the papor.
At the e~it of ~he machine the paper web 1, of which the p~th is constantly hori~ontal, moves p~st a dryin~
dQvicQ, for instance ~n ultra-viole~ drying duvice com-prising an UppQr unit 2~ and a lowsr unit 25 each prov-ided with a protsction plats 26 resp.27 on the other side of the paper. As ~ rule, this drying ~ction is ne-c~ssary if the paper web subsequently tr~vels throu0h at lea~e another printing unit for creating a multicolor m~in design in the ca~a of a banknot~.
In t~e axampl~ illu~trated in Figure ~, th3 diamotar of blanket cylinders 2.3 and 16, and th~ diamater of the plat~ cylinders and th~t o~ the convertible cylind~r are in t~e ratio of 3 : 1.
In t~o form of ~mbodiment illustrat~d in Fi~ure 2. the compon~nt elements of ths machine are unchan~ed, but the various inkin~ devices are disposed on only two movable carriages instcad of four, nam01y a front c~rriag~ 20 ~upporting all the inkin~ devices for plat~ cylinders B
4a, 4b, 12a, 17a, 17b and a rear carriage 29 supporting all the in~ing devices for plate cylinders 4c, ~d, 12b, 17c and 17d, the path of the papar passing through said carriages 28,29 o~ which the ~rame structure comprises the necessary free passage.
In the ~orm of embodiment illustrated in Figure 3, the first two blanket cylinders 2 and 3 are disposed hori-zontally, adjacent to each other, whereas the thir~
blanket cylinder 16 and the convertible cylinder 15 are supsrposed at least approximately vertically , above the second blanket cylin~er 3. The paper 1 follows an at least approximately vertical path. According to this ar-rangement, the blanket cylinders are more accessible and a greater portion of the peripheral surface of cylinder 3 is available for installing more plate cylinders. Re-garding the disposition of the inking devices, only the ink troughs proper and the inking rollers contacting the plate cylinders are illustrated, while eliminating all the intermediary rollers.
As in the other two forms of embodiment, the first blan-ket cylinder 2 printing one face of paper 1 cooperat0s with four plate cylinders 4a-4d each inked by an inking de~ice 5b-5d with double ink duct, and by an inking device 5a with single ink duct for plate cylinder 4a provided with a dampening device 6. These inking device 5a-5d are mounted on a movable inking carriage 31. The second blanket cylinder 3 cooperates with three plate cylinders 12a-12e provided with their respective inkin~
devices 13a-13c, the inking device 13a being completed by a dampening device 14 for plate cylinder 12a. The third blanket cylinder 16 cooperates likewi~e with three plate cylinders 17a-17c inked by their inking devices 18a-18c, respectively. The inking devices 13a-13c and 18a-18c are mounted on another movable inking carriage 1 1` --' ~ 21161-136 30. ~he diametor of blanket cylind2rs 2,3 and 16 ~nd th~
diameter of the plate cylinders and of th0 convertibl~
cylinder 15 are in the ratio of ~:1, If nec0ss~ry, ~t l~ast on~ of blanket cylindsrs 3 or 16 could also be inked by four plate cylind~rs, therefore with four colors.
~he functions of these various elem~nts are id0ntical with tho3e described with ref~rence to figures 1 and 2.
Of course, it is also possible to rontemplate that all the plate cylindors cooparating with blank~t cylinders 2 and 3 be equipped with dry or wet, or partly with dry, partly with wet offset plates, Preferably, plate cylinders ~a and 12a or at least one o~ them, comprise an intaglio plate havin~ its surface wetted in the ~ashion of ~ wet off~Qt plate by a dampening davice 6, resp.14, so that the plate surface outside the 0ngraved lines will repel the ink, Th0 quality of this intaglio print~ng is suitable 40r ereatin~ a main d~si~n on bankno~es.
When printing banknot~s, the safety backgrounds may thus be print~d on both sides in four or six colors. If an intaglio printing plate representing the main design is used, a complete print is obtained with a background of three, resp.five colors and the monochrome main design. This is adequate fos banknotes of smaller value for which a monochrome main dQsign is deemed to be suf-ficient. for printing main multicolor d~sign, the bank-notes are subsequently fed to another printing m~chino.
notably an intaglio pr~ntin~ machine.
In the three form8 o~ embodiment describod hereinabove, the passage of the paper wab coul~ be r~v~rse without brin~in0 any change in the machine, except for the posi-B
.
.
3;2637 tion of the drying device. Moreover, these machines could be sheet prlnting machines and in this case guida members should be provided for the sheets and one of the blanket cylinders 2 or 3 should be provided with grip-pers for gripping the sheets.
Finally, a second convertible cylinder cooperating with the first blanket cylinder 2 could be provided, together with a fo~rth blanket cylinder similar to cylinder 16, in order to have the possibility of making a six-color print also on the other side of the paper. In this case, the machine would comprise two symmetrical hllves.
- 13~-- ' : ' .~ ', ,: , ' .
.
:', '' . :' . , ~ ~ .
Claims (8)
1. Rotary multicolor indirect printing machine for simultaneous recto-verso printing, more particularly for printing the safety background of fiduciary papers and notably banknotes, comprising a first blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a second blanket cylinder cooperating with a plurality of plate cylinders each inked by its own inking device; a third blanket cylinder pressed against said first blanket cylinder and operating with at least one plate cylinder inked by its own inking device; a convertible cylinder that is convertible into a plate cylinder or an image transfer cylinder, said convertible cylinder contacting said second and said third blanket cylinders, the paper being fed between said first and said third blanket cylinders; the diameter of the three blanket cylinders being a whole multiple of the diameter of said convertible cylinder and of said plate cylinders, whereby:
in a first mode of operation, the plate cylinders cooperating with said second blanket cylinder carry selective color inking plates and the convertible cylinder carries a collect printing plate, and in a second mode of operation, said last mentioned plate cylinders carry offset printing plates and said convertible cylinder is an image transfer cylinder having a smooth layer for transferring the offset image from said second to said third blanket cylinder.
in a first mode of operation, the plate cylinders cooperating with said second blanket cylinder carry selective color inking plates and the convertible cylinder carries a collect printing plate, and in a second mode of operation, said last mentioned plate cylinders carry offset printing plates and said convertible cylinder is an image transfer cylinder having a smooth layer for transferring the offset image from said second to said third blanket cylinder.
2. Printing machine of claim 1, wherein the three blanket cylinders are disposed at least substantially vertically one above the other, the path of the paper through the machine being at least substantially horizontal.
3. Printing machine of claim 2 wherein all the inking devices are disposed on two pairs of movable superposed inking carriages on either side of the blanket cylinders, the lower carriages carrying the inking devices for printing one side of the paper, the upper carriages carrying the inking devices for printing the other side of the paper.
4. Printing machine of claim 2 wherein the inking devices are disposed on two movable inking carriages on either side of the blankets cylinders, each carriage carrying both the inking devices for printing one portion of the image on one side of the paper and the inking device for printing one portion of the image on the other side of the paper.
5. Printing machine according to claim 1 preferably a web fed printing machine, wherein the first and the third blanket cylinders are disposed horizontally, adjacent to each other, the third blanket cylinder, the convertible cylinder and the second blanket cylinder being disposed at least approximately vertically in mutual superposed relationship, the path followed by the paper being at least approximately vertical.
6. Printing machine according to claim 5 wherein the inking devices associated with the first blanket cylinder are disposed on a first movable inking carriage and the inking devices associated with the other two superposed blanket cylinders are disposed on another movable inking carriage.
7. Printing machine according to claim 5 wherein the two blanket cylinders engaging the convertible cylinder are each inked by at least three plate cylinders.
8. Printing machine according to claim 1 wherein at least one of said plate cylinders, preferably one of the plate cylinders cooperating with the first blanket cylinder and one of the plate cylinders cooperating with the third blanket cylinder, carries an intaglio printing plate moistened by a dampening device.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CH598884A CH663582A5 (en) | 1984-12-18 | 1984-12-18 | Machine for indirect multicolour printing on the reel for simultaneous recto-verso printing |
| CH5988//84-2 | 1984-12-18 | ||
| CH4438/85-2 | 1985-10-15 | ||
| CH443885 | 1985-10-15 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1282637C true CA1282637C (en) | 1991-04-09 |
Family
ID=25695473
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000496671A Expired - Lifetime CA1282637C (en) | 1984-12-18 | 1985-12-02 | Rotary multicolor indirect printing machine for simultaneously recto-verso printing |
Country Status (5)
| Country | Link |
|---|---|
| US (1) | US4766809A (en) |
| EP (1) | EP0185421B1 (en) |
| AU (1) | AU572367B2 (en) |
| CA (1) | CA1282637C (en) |
| DE (1) | DE3568726D1 (en) |
Families Citing this family (13)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| ATE98558T1 (en) * | 1988-05-18 | 1994-01-15 | De La Rue Giori Sa | MULTI-COLOR ROTARY PRESS FOR SIMULTANEOUS PRINTING AND VERY PRINTING. |
| CH675985A5 (en) * | 1988-07-13 | 1990-11-30 | De La Rue Giori Sa | |
| EP0352520B1 (en) * | 1988-07-27 | 1995-03-22 | GALAXY Media Systems Werbemittel GmbH | Offset printing process |
| JP2602488B2 (en) * | 1989-05-30 | 1997-04-23 | 株式会社 東京機械製作所 | Double-sided multicolor printing machine |
| GB9318565D0 (en) * | 1993-09-07 | 1993-10-20 | Upton Mechanical Design Limite | Colour printing |
| SE507819C2 (en) * | 1994-02-09 | 1998-07-20 | Tetra Laval Holdings & Finance | Printing plant for a rotary printing press with cylinders arranged vertically and rotatably in a separate frame |
| SE507816C2 (en) * | 1994-02-09 | 1998-07-20 | Tetra Laval Holdings & Finance | Rotary printing press built around a beam mill from which the printing plant hangs |
| DE19719624C1 (en) * | 1997-05-09 | 1998-06-10 | Heidelberger Druckmasch Ag | Sheet-fed rotary press with printing-varnish units |
| JP2001310447A (en) * | 2000-04-28 | 2001-11-06 | Komori Corp | Inking device for rotary press |
| US7523704B2 (en) * | 2007-01-19 | 2009-04-28 | Julius Domotor | Lithographic offset press and lithographic offset press printing method |
| DE102013217948B4 (en) * | 2013-09-09 | 2016-05-12 | Koenig & Bauer Ag | Printing machine for securities printing with an Orlof offset printing unit |
| EP2998117A1 (en) | 2014-09-19 | 2016-03-23 | KBA-NotaSys SA | Inking apparatus of a printing press, printing press comprising the same and method of producing a vibrator roller |
| GB201520085D0 (en) * | 2015-11-13 | 2015-12-30 | Rue De Int Ltd | Methods of manufacturing image element arrays for security devices |
Family Cites Families (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US1423165A (en) * | 1921-10-07 | 1922-07-18 | Linotype Machinery Ltd | Rotary lithographic printing machine for direct or offset printing |
| US4056056A (en) * | 1973-03-21 | 1977-11-01 | De La Rue Giori S.A. | Rotary printing press |
| DE3109964A1 (en) * | 1981-03-14 | 1982-12-02 | Koenig & Bauer AG, 8700 Würzburg | "COLLECTIVE PRINTING MACHINE PRINTER FOR SECURITIES PRINTING" |
| DE3109963A1 (en) * | 1981-03-14 | 1982-12-02 | Koenig & Bauer AG, 8700 Würzburg | "COLLECTIVE PRINTING MACHINE PRINTER FOR SECURITIES PRINTING" |
| AU550695B2 (en) * | 1982-04-07 | 1986-03-27 | De La Rue Giori S.A. | Copperplate engraving machine for paper currency |
| US4509424A (en) * | 1982-04-22 | 1985-04-09 | De La Rue Giori S.A. | Convertible, multicolor, rotary printing press |
| ATE30873T1 (en) * | 1983-07-26 | 1987-12-15 | De La Rue Giori Sa | ROTARY MULTICOLOR PRINTING PRESS. |
| EP0133328B1 (en) * | 1983-07-26 | 1988-08-31 | De La Rue Giori S.A. | Perfecting rotary multicolour printing machine |
| EP0132859B1 (en) * | 1983-07-26 | 1988-12-07 | De La Rue Giori S.A. | Perfecting rotary multicolour printing machine |
| EP0132857B1 (en) * | 1983-07-26 | 1987-12-23 | De La Rue Giori S.A. | Combined rotary sheet printing press |
| BE901557A (en) * | 1985-01-24 | 1985-05-17 | De La Rue Giori Sa | Rotary offset duplex multi-colour printing machine - using pairs of cylinders separated by eccentrics according to type of printing being used |
-
1985
- 1985-11-28 AU AU50453/85A patent/AU572367B2/en not_active Ceased
- 1985-12-02 CA CA000496671A patent/CA1282637C/en not_active Expired - Lifetime
- 1985-12-02 DE DE8585202000T patent/DE3568726D1/en not_active Expired
- 1985-12-02 EP EP85202000A patent/EP0185421B1/en not_active Expired
- 1985-12-09 US US06/806,617 patent/US4766809A/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| DE3568726D1 (en) | 1989-04-20 |
| EP0185421A1 (en) | 1986-06-25 |
| AU572367B2 (en) | 1988-05-05 |
| US4766809A (en) | 1988-08-30 |
| EP0185421B1 (en) | 1989-03-15 |
| AU5045385A (en) | 1986-06-26 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKLA | Lapsed |